This simple piece of c# code that is meant to find script blocks in HTML takes 0.5 seconds to run on a 74K char string with only 9 script blocks in it. This is undebuged release binary on 2.8Ghz i7 CPU. I made several runs though this code to make sure that performance is not impeded by JIT. It is not.

This is VS2010 .NET 4.0 Client Profile. x64

Why is this so slow?

                int[] _exclStart = new int[100];
                int[] _exclStop = new int[100];
                int _excl = 0;
                for (int f = input.IndexOf("<script", 0); f != -1; )
                    _exclStart[_excl] = f;
                    f = input.IndexOf("</script", f + 8);
                    if (f == -1)
                        _exclStop[_excl] = input.Length;
                    _exclStop[_excl] = f;
                    f = input.IndexOf("<script", f + 8);
  • try using regular expression that is compiled – Kris Ivanov Oct 28 '11 at 23:53
  • I have to guess that input is actually a property that's very expensive to retrieve. Make a copy. – Hans Passant Oct 29 '11 at 0:20
  • input is a string that is already there. It is 74,000+ characters long. There is no perf penalty for retirieving it. – Ghostrider Oct 29 '11 at 2:42
  • @Ghostrider did you ever find out what outside of this code was making it so slow? – Seph Dec 6 '13 at 8:00
  • string.IndexOf is just plain slow - now much that can be done there. I ended up rewriting the whole app (it was a small one) in C++. Works lightning fast now :) – Ghostrider Dec 11 '13 at 2:47

I used the source on this page as an example, I then duplicated the content 8 times, resulting in a page some 334,312 bytes long. Using StringComparision.Ordinal yields massive performance difference.

string newInput = string.Format("{0}{0}{0}{0}{0}{0}{0}{0}", input.Trim().ToLower());
//string newInput = input.Trim().ToLower();

System.Diagnostics.Stopwatch sw = new System.Diagnostics.Stopwatch();
int[] _exclStart = new int[100];
int[] _exclStop = new int[100];
int _excl = 0;
for (int f = newInput.IndexOf("<script", 0, StringComparison.Ordinal); f != -1; )
    _exclStart[_excl] = f;
    f = newInput.IndexOf("</script", f + 8, StringComparison.Ordinal);
    if (f == -1)
        _exclStop[_excl] = newInput.Length;
    _exclStop[_excl] = f;
    f = newInput.IndexOf("<script", f + 8, StringComparison.Ordinal);

running 5 times yields almost the same result for each (the loop timings did not significantly change so for this simple code there is almost no time spent for JIT to compile it)

Output using your original code (in Milliseconds):


Output using the above code instead (in Milliseconds):


Notice that my test results are around 0.010 seconds (original code) and 0.0003 seconds (for ordinal code). Meaning you have something else wrong other than this code directly.

If as you say, using StringComparison.Ordinal does nothing for your performance then that means that either your using incorrect timers to time your performance, or you have a large overhead in reading your input value such as reading it from a stream again which you otherwise don't realise.

Tested under Windows 7 x64 running on a 3GHz i5 using .NET 4 Client Profile.


  1. use StringComparison.Ordinal
  2. Make sure you're using System.Diagnostics.Stopwatch to time performance
  3. Declare a local variable for the input instead of using values external to the function (eg: string newInput = input.Trim().ToLower();)

Again I stress, I am getting 50 times faster speed for a test data that is apparently over 4 times larger in size using the exact same code that you provide. Meaning my test is running some 200 times faster than yours which is not something anyone would expect given we're both running same environment and just i5 (me) versus i7 (you).

  • The OP said their code runs in 0.5 seconds. Your timings seem on the same order... – Merlyn Morgan-Graham Oct 30 '11 at 10:07
  • my returned timings are TotalMilliseconds not TotalSeconds they're significantly faster. Meaning that the OPs performance problem is not directly in this section of code. – Seph Oct 30 '11 at 10:11
  • 1
    no problem, I clarified the answer as you made a good point still – Seph Oct 30 '11 at 10:14

The IndexOf overload you're using is culture-sensitive, which will affect performance. Instead, use:

input.IndexOf("<script", 0, StringComparison.Ordinal); 
  • using StringComparison.Ordinal has no measurable effect on performance of this code. – Ghostrider Oct 29 '11 at 0:42

I would recommend using RegEx for this, it offers significant performance improvement because the expressions are compiled only once. Whereas IndexOf is essentially a loop which runs on per character basis which probably means, you have 3 "loops" within your main for loop, ofcourse, IndexOf won't be as slow as a regular loop, but still when the input size grows the time increases. Regex has inbuilt functions that would return the number and positions of occurrences of each pattern you define.

Edit: this might shed some more light on the performance of IndexOf IndexOf Perf

  • I've tried using compiled RegEx as well - performance is identical. Also tried adding RegexOptions.CultureInvariant to options - zero effect – Ghostrider Oct 29 '11 at 0:39

I just test IndexOf performance with .NET 4.0 on Windows 7

public void Test()
    var input = "Hello world, I'm ekk. This is test string";

    TestStringIndexOfPerformance(input, StringComparison.CurrentCulture);
    TestStringIndexOfPerformance(input, StringComparison.InvariantCulture);
    TestStringIndexOfPerformance(input, StringComparison.Ordinal);


private static void TestStringIndexOfPerformance(string input, StringComparison stringComparison)
    var count = 0;
    var startTime = DateTime.UtcNow;
    TimeSpan result;

    for (var index = 0; index != 1000000; index++)
        count = input.IndexOf("<script", 0, stringComparison);

    result = DateTime.UtcNow.Subtract(startTime);

    Console.WriteLine("{0}: {1}", stringComparison, count);
    Console.WriteLine("Total time: {0}", result.TotalMilliseconds);

And the result is:

    Total time: 225.4008

    Total time: 187.2003

    Total time: 124.8003

As you can see performance of Ordinal is a little better.


I don't discuss the code here, that probably coul be written with Regex and so on... but in order to me is slow because the IndexOf() *inside* the for always rescan the string from the beginning ( it always start from index 0 ) try to scan from the last occurrency found instead.

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